1. Directions given for PSpice Schematics

2. AttributeDescription DELAYThe time delay before the pulses are started. ONTIMEThe length of time that the pulse is at the voltage set by OPPVAL OFFTIMEThe length of time that the pulse is at the voltage set by STARTVAL STARTVALThe voltage that will be outputted at time = 0s by Digclock. The values used are “0” for 0V and “1” for 5V. OPPVALThe voltage that will be outputted by Digclock when either the DELAY has been completed or the first OFFTIME has been completed if no DELAY has been set. The values used are “0” for 0V and “1” for 5V and should be the opposite logic value to what was entered for STARTVAL.

3. AttributeDescription DCValue that will be used when calculating the bias point and allows Vpulse to be used as a DC source in DC Sweep. It does not add a DC offset to the pulse train ACValue that will be used when performing a AC Sweep using Vpulse as the voltage source V1The first voltage level of the pulse V2The voltage level that the pulse changes to, can be larger or smaller than 1V

4. AttributeDescription TDThe time delay before the pulse (or pulses) is started TRThe length of time that it takes to ramp the voltage of the pulse from V1 to V2. This can be 0 seconds TRThe length of time that it takes to ramp the voltage of the pulse from V2 to back down to V1. This can be 0 seconds PWThe length of time that the output voltage of Vpulse is equal to V2 PERThe length of time of the period of a continuous output of pulses. If this attribute is left unchanged (blank), only one pulse will be outputted by Vpulse

6. The continuous set of pulses do not start until time = 2  s (DELAY = 2us). The initial voltage is 0V (STARTVAL = 0). Once the pulses start, the pulse length at 0V is 0.5  s (OFFTIME = 0.5us) and the pulse length at 5V is 0.5  s (ONTIME = 0.5us).

8. The continuous set of pulses start at time = 0s (DELAY = ). The initial voltage is 5V (STARTVAL = 1). Once the pulses start, the pulse length at 0V is 1  s (ONTIME = 1us) and the pulse length at 5V is 0.5  s (OFFTIME = 0.5us).

10. A single pulse (PER = ) that does not start until time = 2  s (TD = 2us). The initial voltage is 0V (V1 = 0). After the delay, the output rises to 3V (V2 = 3V) in 1  s (TR = 1us), stays at 3V for 3  s (PW = 3us), and then takes 2  s to return back to 0V (TF = 2us).

12. Continuous pulses that repeat every 4  s (PER = 4us) that start immediately (TD = 0 ). The initial voltage is +5V (V1 = 5V). The output drops to -5V (V2 = -5V) in 0  s (TR = 0), stays at -5V for 1  s (PW = 1us), and then return back immediately (TF = 0) to +5V.

13. There appears to be a rise and fall time (TR and TF, respectively) that is used by PSpice even when you set these values to 0s. This results from the use of the default Step Ceiling when setting the parameters for the Transient Analysis.

14. More abrupt transitions between 0V and 5V can be obtained if you specify a Step Ceiling that is a small fraction of the period of the voltage signal.

15. Setting DC to 2V allows you to add a DC Sweep to the simulation without having to include a Vdc into the schematic. This DC source is only used in the DC Sweep and does not cause a voltage offset to be added to the pulse when performing a transient analysis. Pulse attributes in this case are continuous pulses that repeat every 1  s (PER = 1us) that start immediately (TD = 0 ). The initial voltage is 0V (V1 = 0V). The output rises to 5V (V2 = 5V) in 0  s (TR = 0), stays at 5V for 0.5  s (PW = 0.5us), and then return back immediately (TF = 0) to 0V.

16. After selecting DC Sweep in addition to Transient in the Simulation Setup and then running the simulation, you can select which output is plotted by clicking on the DC or Transient in the Analysis Type pop-up window.

17. While the output displayed when Transient is selected is not close to a 50% duty cycle square wave, the 2V DC value entered as an attribute in the Part Name pop-up window does not cause an DC offset voltage.

18. The value of DC entered as an attribute in the Part Name pop-up window is overridden by the Start Value and End Value that you enter in the DC Sweep pop-up window that is launched when you select DC Sweep in the Analysis Setup pop-up window. However, you must enter some value for DC in the Part Name pop-up window to have the DC Sweep option enabled. Similarly, you must enter some value for AC in the Part Name pop-up window to have the AC Sweep option enabled during the simulation run.